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https://github.com/f4exb/sdrangel.git
synced 2024-11-13 20:01:46 -05:00
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4ee2eb532a
@ -1938,6 +1938,10 @@ void FT8::soft_decode(const FFTEngine::ffts_t &c79, float ll174[])
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//
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void FT8::soft_decode_mags(FT8Params& params, const std::vector<std::vector<float>>& mags_, int nbSymbolBits, float ll174[])
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{
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if ((nbSymbolBits > 16) || (nbSymbolBits < 1)) {
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return;
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}
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std::vector<std::vector<float>> mags = convert_to_snr_gen(params, nbSymbolBits, mags_);
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// statistics to decide soft probabilities.
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// distribution of strongest tones, and
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@ -1949,8 +1953,8 @@ void FT8::soft_decode_mags(FT8Params& params, const std::vector<std::vector<floa
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int lli = 0;
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int zoX = 1<<(nbSymbolBits-1);
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int zoY = nbSymbolBits;
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int *zeroi = new int[zoX*zoY];
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int *onei = new int[zoX*zoY];
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std::vector<int> zeroi(zoX*zoY);
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std::vector<int> onei(zoX*zoY);
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for (int biti = 0; biti < nbSymbolBits; biti++)
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{
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@ -370,9 +370,9 @@ void LDPC::ft8_crc(int msg1[], int msglen, int out[14])
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// the new FT8 polynomial for 14-bit CRC, 0x2757,
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// with leading 1 bit.
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int div[] = {1, 1, 0, 0, 1, 1, 1, 0, 1, 0, 1, 0, 1, 1, 1};
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// append 14 zeros.
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int *msg = (int *)malloc(sizeof(int) * (msglen + 14));
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for (int i = 0; i < msglen + 14; i++)
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{
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if (i < msglen)
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@ -396,7 +396,7 @@ void LDPC::ft8_crc(int msg1[], int msglen, int out[14])
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}
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}
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for (int i = 0; i < 14; i++)
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for (int i = 0; i < msglen + 14; i++)
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{
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out[i] = msg[msglen + i];
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}
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@ -90,8 +90,8 @@ private:
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// Top area of each buffer is not used by writer, as it's used by the reader
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// for copying the last few samples of the previous buffer, so it can
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// be processed contiguously
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const int m_buffers = 3;
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const int m_bufferSize = 200000;
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static const int m_buffers = 3;
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static const int m_bufferSize = 200000;
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Real *m_sampleBuffer[3]; //!< Each buffer is m_bufferSize samples
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QSemaphore m_bufferWrite[3]; //!< Semaphore to control write access to the buffers
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QSemaphore m_bufferRead[3]; //!< Semaphore to control read access from the buffers
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@ -30,9 +30,11 @@ namespace ldpctool {
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template <typename TYPE>
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class LDPCEncoder
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{
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LDPCInterface *ldpc;
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int N, K, R;
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bool initialized;
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LDPCInterface *ldpc = nullptr;
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int N = 2;
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int K = 1;
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int R = 1;
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bool initialized = false;
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TYPE one()
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{
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@ -43,9 +45,10 @@ class LDPCEncoder
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return b < TYPE(0) ? -a : b > TYPE(0) ? a : TYPE(0);
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}
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public:
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LDPCEncoder() : initialized(false)
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LDPCEncoder()
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{
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}
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void init(LDPCInterface *it)
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{
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if (initialized)
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@ -77,18 +77,29 @@ public:
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template <typename TYPE, typename ALG>
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class LDPCDecoder
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{
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TYPE *bnl, *pty, *inp, *out;
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uint16_t *pos;
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uint8_t *cnc;
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private:
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TYPE *bnl = nullptr;
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TYPE *pty = nullptr;
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TYPE *inp = nullptr;
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TYPE *out = nullptr;
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uint16_t *pos = nullptr;
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uint8_t *cnc = nullptr;
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ALG alg;
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int M, N, K, R, q, CNL, LT;
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bool initialized;
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int M = 0;
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int N = 0;
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int K = 0;
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int R = 0;
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int q = 0;
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int CNL = 0;
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int LT = 0;
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bool initialized = false;
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void reset()
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{
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for (int i = 0; i < LT; ++i)
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bnl[i] = alg.zero();
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}
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bool bad(TYPE *data, TYPE *parity, int blocks)
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{
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for (int i = 0; i < q; ++i) {
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@ -107,6 +118,7 @@ class LDPCDecoder
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}
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return false;
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}
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void update(TYPE *data, TYPE *parity)
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{
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TYPE *bl = bnl;
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@ -135,10 +147,12 @@ class LDPCDecoder
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}
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}
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}
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public:
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LDPCDecoder() : initialized(false)
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LDPCDecoder()
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{
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}
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void init(LDPCInterface *it)
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{
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if (initialized) {
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@ -124,16 +124,18 @@ int main(int argc, char **argv)
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// DVB-S2 MODCOD definitions
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static const char *mc_tabnames[2][32] = { // [shortframes][modcod]
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{// Normal frames
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0, "B1", "B2", "B3", "B4", "B5", "B6", "B7",
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"B8", "B9", "B10", "B11", "B5", "B6", "B7", "B9",
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"B10", "B11", "B6", "B7", "B8", "B9", "B10", "B11",
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"B7", "B8", "B8", "B10", "B11", 0, 0, 0},
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{// Short frames
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0, "C1", "C2", "C3", "C4", "C5", "C6", "C7",
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"C8", "C9", "C10", 0, "C5", "C6", "C7", "C9",
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"C10", 0, "C6", "C7", "C8", "C9", "C10", 0,
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"C7", "C8", "C8", "C10", 0, 0, 0, 0}};
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{// Normal frames
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nullptr, "B1", "B2", "B3", "B4", "B5", "B6", "B7",
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"B8", "B9", "B10", "B11", "B5", "B6", "B7", "B9",
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"B10", "B11", "B6", "B7", "B8", "B9", "B10", "B11",
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"B7", "B8", "B8", "B10", "B11", nullptr, nullptr, nullptr
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},
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{// Short frames
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nullptr, "C1", "C2", "C3", "C4", "C5", "C6", "C7",
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"C8", "C9", "C10", nullptr, "C5", "C6", "C7", "C9",
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"C10", nullptr, "C6", "C7", "C8", "C9", "C10", nullptr,
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"C7", "C8", "C8", "C10", nullptr, nullptr, nullptr, nullptr
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}};
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const char *tabname = mc_tabnames[shortframes][modcod];
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if (!tabname)
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@ -188,8 +190,16 @@ int main(int argc, char **argv)
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int blocks = j + ldpctool::SIMD_WIDTH > BLOCKS ? BLOCKS - j : ldpctool::SIMD_WIDTH;
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for (int n = 0; n < blocks; ++n)
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{
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for (int i = 0; i < CODE_LEN; ++i)
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{
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if (((j + n) * CODE_LEN + i) >= BLOCKS * CODE_LEN) {
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break;
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}
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reinterpret_cast<ldpctool::code_type *>(simd + i)[n] = code[(j + n) * CODE_LEN + i];
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}
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}
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int count = decode(simd, simd + DATA_LEN, max_trials, blocks);
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num_decodes++;
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@ -155,14 +155,12 @@ RadioAstronomy::~RadioAstronomy()
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m_deviceAPI->removeChannelSinkAPI(this);
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m_deviceAPI->removeChannelSink(this);
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if (m_basebandSink->isRunning()) {
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if ((m_basebandSink->isRunning()) || (m_worker->isRunning())) {
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stop();
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}
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delete m_basebandSink;
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if (m_worker->isRunning()) {
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stop();
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}
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delete m_worker;
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m_worker->deleteLater();
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m_basebandSink->deleteLater();
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}
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void RadioAstronomy::setDeviceAPI(DeviceAPI *deviceAPI)
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@ -50,10 +50,10 @@ struct IEEE_802_15_4_MacFrame
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uint16_t m_frameControl;
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uint8_t m_sequenceNumber;
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uint16_t m_destPANID;
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uint16_t m_destShortAddress;
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uint16_t m_destShortAddress = 0;
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ieee_802_15_4_address m_destAddress;
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uint16_t m_sourcePANID;
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uint16_t m_sourceShortAddress;
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uint16_t m_sourceShortAddress = 0;
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ieee_802_15_4_address m_sourceAddress;
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uint8_t m_payload[IEEE_802_15_4_MAC_PAYLOAD_MAX_LENGTH];
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uint8_t m_payloadLength;
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@ -14,7 +14,7 @@ except ImportError:
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import _thread as thread
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import time
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from datetime import datetime
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from datetime import datetime, timezone
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from optparse import OptionParser
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import sdrangel
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@ -50,7 +50,7 @@ class SuperScannerAPIError(SuperScannerError):
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# ======================================================================
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def log_with_timestamp(message):
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t = datetime.utcnow()
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t = datetime.now(timezone.utc)
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print(f'{t.isoformat()} {message}')
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# ======================================================================
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@ -218,7 +218,7 @@ bool SigMFFileRecord::stopRecording()
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{
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if (m_recordOn)
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{
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qDebug("SigMFFileRecord::stopRecording: file previous capture");
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qDebug("SigMFFileRecord::stopRecording: file previous capture");
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makeCapture();
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m_recordOn = false;
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if (m_sampleFile.error())
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@ -370,7 +370,13 @@ void WFIR::WindowData(double *Data, int N, TWindowType WindowType, double Alpha,
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if (WindowType != wtKAISER && WindowType != wtFLATTOP)
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{
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for (j = M / 2; j < N - M / 2; j++)
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{
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if (j >= N + 2) {
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break;
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}
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WinCoeff[j] = 1.0;
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}
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}
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// This will set the gain of the window to 1. Only the Flattop window has unity gain by design.
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@ -117,7 +117,6 @@ void CFCOMP::calc_comp (CFCOMP *a)
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a->G[i] = sary[3 * i + 1];
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a->E[i] = sary[3 * i + 2];
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}
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delete[] (sary);
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a->fp[0] = 0.0;
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a->fp[a->nfreqs + 1] = fmax;
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a->gp[0] = a->G[0];
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@ -230,7 +230,7 @@ void EMNR::interpM (double* res, double x, int nvals, double* xvals, double* yva
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}
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else
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{
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int idx = 0;
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int idx = 1;
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double xllow, xlhigh, frac;
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while ((x >= xvals[idx]) && (idx < nvals - 1))
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10
wdsp/fir.cpp
10
wdsp/fir.cpp
@ -317,10 +317,15 @@ float *FIR::fir_read (int N, const char *filename, int rtype, float scale)
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void FIR::analytic (int N, float* in, float* out)
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{
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if (N < 1) {
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return;
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}
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int i;
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double inv_N = 1.0 / (double) N;
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double two_inv_N = 2.0 * inv_N;
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float* x = new float[N * 2]; // (float *) malloc0 (N * sizeof (complex));
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fftwf_plan pfor = fftwf_plan_dft_1d (
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N,
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(fftwf_complex *) in,
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@ -328,6 +333,7 @@ void FIR::analytic (int N, float* in, float* out)
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FFTW_FORWARD,
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FFTW_PATIENT
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);
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fftwf_plan prev = fftwf_plan_dft_1d (
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N,
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(fftwf_complex *) x,
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@ -335,20 +341,24 @@ void FIR::analytic (int N, float* in, float* out)
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FFTW_BACKWARD,
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FFTW_PATIENT
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);
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fftwf_execute (pfor);
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x[0] *= inv_N;
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x[1] *= inv_N;
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for (i = 1; i < N / 2; i++)
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{
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x[2 * i + 0] *= two_inv_N;
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x[2 * i + 1] *= two_inv_N;
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}
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x[N + 0] *= inv_N;
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x[N + 1] *= inv_N;
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memset (&x[N + 2], 0, (N - 2) * sizeof (float));
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fftwf_execute (prev);
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fftwf_destroy_plan (prev);
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fftwf_destroy_plan (pfor);
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delete[] x;
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}
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@ -60,8 +60,8 @@ void RESAMPLE::calc_resample (RESAMPLE *a)
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a->L = a->out_rate / x;
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a->M = a->in_rate / x;
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a->L <= 0 ? 1 : a->L;
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a->M <= 0 ? 1 : a->M;
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a->L = a->L <= 0 ? 1 : a->L;
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a->M = a->M <= 0 ? 1 : a->M;
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if (a->in_rate < a->out_rate)
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min_rate = a->in_rate;
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@ -64,8 +64,8 @@ RESAMPLEF* RESAMPLEF::create_resampleF ( int run, int size, float* in, float* ou
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a->L = out_rate / x;
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a->M = in_rate / x;
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a->L <= 0 ? 1 : a->L;
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a->M <= 0 ? 1 : a->M;
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a->L = a->L <= 0 ? 1 : a->L;
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a->M = a->M <= 0 ? 1 : a->M;
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if (in_rate < out_rate)
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min_rate = in_rate;
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